Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
David E. Box | 4035 | 100.00% | 6 | 100.00% |
Total | 4035 | 6 |
// SPDX-License-Identifier: GPL-2.0 /* * sdsi: Intel On Demand (formerly Software Defined Silicon) tool for * provisioning certificates and activation payloads on supported cpus. * * See https://github.com/intel/intel-sdsi/blob/master/os-interface.rst * for register descriptions. * * Copyright (C) 2022 Intel Corporation. All rights reserved. */ #include <dirent.h> #include <errno.h> #include <fcntl.h> #include <getopt.h> #include <stdbool.h> #include <stdio.h> #include <stdint.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <sys/types.h> #ifndef __packed #define __packed __attribute__((packed)) #endif #define min(x, y) ({ \ typeof(x) _min1 = (x); \ typeof(y) _min2 = (y); \ (void) (&_min1 == &_min2); \ _min1 < _min2 ? _min1 : _min2; }) #define SDSI_DEV "intel_vsec.sdsi" #define AUX_DEV_PATH "/sys/bus/auxiliary/devices/" #define SDSI_PATH (AUX_DEV_DIR SDSI_DEV) #define GUID_V1 0x6dd191 #define REGS_SIZE_GUID_V1 72 #define GUID_V2 0xF210D9EF #define REGS_SIZE_GUID_V2 80 #define STATE_CERT_MAX_SIZE 4096 #define METER_CERT_MAX_SIZE 4096 #define STATE_MAX_NUM_LICENSES 16 #define STATE_MAX_NUM_IN_BUNDLE (uint32_t)8 #define METER_MAX_NUM_BUNDLES 8 #define __round_mask(x, y) ((__typeof__(x))((y) - 1)) #define round_up(x, y) ((((x) - 1) | __round_mask(x, y)) + 1) struct nvram_content_auth_err_sts { uint64_t reserved:3; uint64_t sdsi_content_auth_err:1; uint64_t reserved1:1; uint64_t sdsi_metering_auth_err:1; uint64_t reserved2:58; }; struct enabled_features { uint64_t reserved:3; uint64_t sdsi:1; uint64_t reserved1:8; uint64_t attestation:1; uint64_t reserved2:13; uint64_t metering:1; uint64_t reserved3:37; }; struct key_provision_status { uint64_t reserved:1; uint64_t license_key_provisioned:1; uint64_t reserved2:62; }; struct auth_fail_count { uint64_t key_failure_count:3; uint64_t key_failure_threshold:3; uint64_t auth_failure_count:3; uint64_t auth_failure_threshold:3; uint64_t reserved:52; }; struct availability { uint64_t reserved:48; uint64_t available:3; uint64_t threshold:3; uint64_t reserved2:10; }; struct nvram_update_limit { uint64_t reserved:12; uint64_t sdsi_50_pct:1; uint64_t sdsi_75_pct:1; uint64_t sdsi_90_pct:1; uint64_t reserved2:49; }; struct sdsi_regs { uint64_t ppin; struct nvram_content_auth_err_sts auth_err_sts; struct enabled_features en_features; struct key_provision_status key_prov_sts; struct auth_fail_count auth_fail_count; struct availability prov_avail; struct nvram_update_limit limits; uint64_t pcu_cr3_capid_cfg; union { struct { uint64_t socket_id; } v1; struct { uint64_t reserved; uint64_t socket_id; uint64_t reserved2; } v2; } extra; }; #define CONTENT_TYPE_LK_ENC 0xD #define CONTENT_TYPE_LK_BLOB_ENC 0xE struct state_certificate { uint32_t content_type; uint32_t region_rev_id; uint32_t header_size; uint32_t total_size; uint32_t key_size; uint32_t num_licenses; }; struct license_key_info { uint32_t key_rev_id; uint64_t key_image_content[6]; } __packed; #define LICENSE_BLOB_SIZE(l) (((l) & 0x7fffffff) * 4) #define LICENSE_VALID(l) (!!((l) & 0x80000000)) // License Group Types #define LBT_ONE_TIME_UPGRADE 1 #define LBT_METERED_UPGRADE 2 struct license_blob_content { uint32_t type; uint64_t id; uint64_t ppin; uint64_t previous_ppin; uint32_t rev_id; uint32_t num_bundles; } __packed; struct bundle_encoding { uint32_t encoding; uint32_t encoding_rsvd[7]; }; struct meter_certificate { uint32_t block_signature; uint32_t counter_unit; uint64_t ppin; uint32_t bundle_length; uint32_t reserved; uint32_t mmrc_encoding; uint32_t mmrc_counter; }; struct bundle_encoding_counter { uint32_t encoding; uint32_t counter; }; struct sdsi_dev { struct sdsi_regs regs; struct state_certificate sc; char *dev_name; char *dev_path; uint32_t guid; }; enum command { CMD_SOCKET_INFO, CMD_METER_CERT, CMD_STATE_CERT, CMD_PROV_AKC, CMD_PROV_CAP, }; static void sdsi_list_devices(void) { struct dirent *entry; DIR *aux_dir; bool found = false; aux_dir = opendir(AUX_DEV_PATH); if (!aux_dir) { fprintf(stderr, "Cannot open directory %s\n", AUX_DEV_PATH); return; } while ((entry = readdir(aux_dir))) { if (!strncmp(SDSI_DEV, entry->d_name, strlen(SDSI_DEV))) { found = true; printf("%s\n", entry->d_name); } } if (!found) fprintf(stderr, "No On Demand devices found.\n"); } static int sdsi_update_registers(struct sdsi_dev *s) { FILE *regs_ptr; int ret; memset(&s->regs, 0, sizeof(s->regs)); /* Open the registers file */ ret = chdir(s->dev_path); if (ret == -1) { perror("chdir"); return ret; } regs_ptr = fopen("registers", "r"); if (!regs_ptr) { perror("Could not open 'registers' file"); return -1; } if (s->guid != GUID_V1 && s->guid != GUID_V2) { fprintf(stderr, "Unrecognized guid, 0x%x\n", s->guid); fclose(regs_ptr); return -1; } /* Update register info for this guid */ ret = fread(&s->regs, sizeof(uint8_t), sizeof(s->regs), regs_ptr); if ((s->guid == GUID_V1 && ret != REGS_SIZE_GUID_V1) || (s->guid == GUID_V2 && ret != REGS_SIZE_GUID_V2)) { fprintf(stderr, "Could not read 'registers' file\n"); fclose(regs_ptr); return -1; } fclose(regs_ptr); return 0; } static int sdsi_read_reg(struct sdsi_dev *s) { int ret; ret = sdsi_update_registers(s); if (ret) return ret; /* Print register info for this guid */ printf("\n"); printf("Socket information for device %s\n", s->dev_name); printf("\n"); printf("PPIN: 0x%lx\n", s->regs.ppin); printf("NVRAM Content Authorization Error Status\n"); printf(" SDSi Auth Err Sts: %s\n", !!s->regs.auth_err_sts.sdsi_content_auth_err ? "Error" : "Okay"); if (!!s->regs.en_features.metering) printf(" Metering Auth Err Sts: %s\n", !!s->regs.auth_err_sts.sdsi_metering_auth_err ? "Error" : "Okay"); printf("Enabled Features\n"); printf(" On Demand: %s\n", !!s->regs.en_features.sdsi ? "Enabled" : "Disabled"); printf(" Attestation: %s\n", !!s->regs.en_features.attestation ? "Enabled" : "Disabled"); printf(" On Demand: %s\n", !!s->regs.en_features.sdsi ? "Enabled" : "Disabled"); printf(" Metering: %s\n", !!s->regs.en_features.metering ? "Enabled" : "Disabled"); printf("License Key (AKC) Provisioned: %s\n", !!s->regs.key_prov_sts.license_key_provisioned ? "Yes" : "No"); printf("Authorization Failure Count\n"); printf(" AKC Failure Count: %d\n", s->regs.auth_fail_count.key_failure_count); printf(" AKC Failure Threshold: %d\n", s->regs.auth_fail_count.key_failure_threshold); printf(" CAP Failure Count: %d\n", s->regs.auth_fail_count.auth_failure_count); printf(" CAP Failure Threshold: %d\n", s->regs.auth_fail_count.auth_failure_threshold); printf("Provisioning Availability\n"); printf(" Updates Available: %d\n", s->regs.prov_avail.available); printf(" Updates Threshold: %d\n", s->regs.prov_avail.threshold); printf("NVRAM Udate Limit\n"); printf(" 50%% Limit Reached: %s\n", !!s->regs.limits.sdsi_50_pct ? "Yes" : "No"); printf(" 75%% Limit Reached: %s\n", !!s->regs.limits.sdsi_75_pct ? "Yes" : "No"); printf(" 90%% Limit Reached: %s\n", !!s->regs.limits.sdsi_90_pct ? "Yes" : "No"); if (s->guid == GUID_V1) printf("Socket ID: %ld\n", s->regs.extra.v1.socket_id & 0xF); else printf("Socket ID: %ld\n", s->regs.extra.v2.socket_id & 0xF); return 0; } static char *license_blob_type(uint32_t type) { switch (type) { case LBT_ONE_TIME_UPGRADE: return "One time upgrade"; case LBT_METERED_UPGRADE: return "Metered upgrade"; default: return "Unknown license blob type"; } } static char *content_type(uint32_t type) { switch (type) { case CONTENT_TYPE_LK_ENC: return "Licencse key encoding"; case CONTENT_TYPE_LK_BLOB_ENC: return "License key + Blob encoding"; default: return "Unknown content type"; } } static void get_feature(uint32_t encoding, char *feature) { char *name = (char *)&encoding; feature[3] = name[0]; feature[2] = name[1]; feature[1] = name[2]; feature[0] = name[3]; } static int sdsi_meter_cert_show(struct sdsi_dev *s) { char buf[METER_CERT_MAX_SIZE] = {0}; struct bundle_encoding_counter *bec; struct meter_certificate *mc; uint32_t count = 0; FILE *cert_ptr; int ret, size; ret = sdsi_update_registers(s); if (ret) return ret; if (!s->regs.en_features.sdsi) { fprintf(stderr, "SDSi feature is present but not enabled.\n"); fprintf(stderr, " Unable to read meter certificate\n"); return -1; } if (!s->regs.en_features.metering) { fprintf(stderr, "Metering not supporting on this socket.\n"); return -1; } ret = chdir(s->dev_path); if (ret == -1) { perror("chdir"); return ret; } cert_ptr = fopen("meter_certificate", "r"); if (!cert_ptr) { perror("Could not open 'meter_certificate' file"); return -1; } size = fread(buf, 1, sizeof(buf), cert_ptr); if (!size) { fprintf(stderr, "Could not read 'meter_certificate' file\n"); fclose(cert_ptr); return -1; } fclose(cert_ptr); mc = (struct meter_certificate *)buf; printf("\n"); printf("Meter certificate for device %s\n", s->dev_name); printf("\n"); printf("Block Signature: 0x%x\n", mc->block_signature); printf("Count Unit: %dms\n", mc->counter_unit); printf("PPIN: 0x%lx\n", mc->ppin); printf("Feature Bundle Length: %d\n", mc->bundle_length); printf("MMRC encoding: %d\n", mc->mmrc_encoding); printf("MMRC counter: %d\n", mc->mmrc_counter); if (mc->bundle_length % 8) { fprintf(stderr, "Invalid bundle length\n"); return -1; } if (mc->bundle_length > METER_MAX_NUM_BUNDLES * 8) { fprintf(stderr, "More than %d bundles: %d\n", METER_MAX_NUM_BUNDLES, mc->bundle_length / 8); return -1; } bec = (void *)(mc) + sizeof(mc); printf("Number of Feature Counters: %d\n", mc->bundle_length / 8); while (count++ < mc->bundle_length / 8) { char feature[5]; feature[4] = '\0'; get_feature(bec[count].encoding, feature); printf(" %s: %d\n", feature, bec[count].counter); } return 0; } static int sdsi_state_cert_show(struct sdsi_dev *s) { char buf[STATE_CERT_MAX_SIZE] = {0}; struct state_certificate *sc; struct license_key_info *lki; uint32_t offset = 0; uint32_t count = 0; FILE *cert_ptr; int ret, size; ret = sdsi_update_registers(s); if (ret) return ret; if (!s->regs.en_features.sdsi) { fprintf(stderr, "On Demand feature is present but not enabled."); fprintf(stderr, " Unable to read state certificate"); return -1; } ret = chdir(s->dev_path); if (ret == -1) { perror("chdir"); return ret; } cert_ptr = fopen("state_certificate", "r"); if (!cert_ptr) { perror("Could not open 'state_certificate' file"); return -1; } size = fread(buf, 1, sizeof(buf), cert_ptr); if (!size) { fprintf(stderr, "Could not read 'state_certificate' file\n"); fclose(cert_ptr); return -1; } fclose(cert_ptr); sc = (struct state_certificate *)buf; /* Print register info for this guid */ printf("\n"); printf("State certificate for device %s\n", s->dev_name); printf("\n"); printf("Content Type: %s\n", content_type(sc->content_type)); printf("Region Revision ID: %d\n", sc->region_rev_id); printf("Header Size: %d\n", sc->header_size * 4); printf("Total Size: %d\n", sc->total_size); printf("OEM Key Size: %d\n", sc->key_size * 4); printf("Number of Licenses: %d\n", sc->num_licenses); /* Skip over the license sizes 4 bytes per license) to get the license key info */ lki = (void *)sc + sizeof(*sc) + (4 * sc->num_licenses); printf("License blob Info:\n"); printf(" License Key Revision ID: 0x%x\n", lki->key_rev_id); printf(" License Key Image Content: 0x%lx%lx%lx%lx%lx%lx\n", lki->key_image_content[5], lki->key_image_content[4], lki->key_image_content[3], lki->key_image_content[2], lki->key_image_content[1], lki->key_image_content[0]); while (count++ < sc->num_licenses) { uint32_t blob_size_field = *(uint32_t *)(buf + 0x14 + count * 4); uint32_t blob_size = LICENSE_BLOB_SIZE(blob_size_field); bool license_valid = LICENSE_VALID(blob_size_field); struct license_blob_content *lbc = (void *)(sc) + // start of the state certificate sizeof(*sc) + // size of the state certificate (4 * sc->num_licenses) + // total size of the blob size blocks sizeof(*lki) + // size of the license key info offset; // offset to this blob content struct bundle_encoding *bundle = (void *)(lbc) + sizeof(*lbc); char feature[5]; uint32_t i; printf(" Blob %d:\n", count - 1); printf(" License blob size: %u\n", blob_size); printf(" License is valid: %s\n", license_valid ? "Yes" : "No"); printf(" License blob type: %s\n", license_blob_type(lbc->type)); printf(" License blob ID: 0x%lx\n", lbc->id); printf(" PPIN: 0x%lx\n", lbc->ppin); printf(" Previous PPIN: 0x%lx\n", lbc->previous_ppin); printf(" Blob revision ID: %u\n", lbc->rev_id); printf(" Number of Features: %u\n", lbc->num_bundles); feature[4] = '\0'; for (i = 0; i < min(lbc->num_bundles, STATE_MAX_NUM_IN_BUNDLE); i++) { get_feature(bundle[i].encoding, feature); printf(" Feature %d: %s\n", i, feature); } if (lbc->num_bundles > STATE_MAX_NUM_IN_BUNDLE) fprintf(stderr, " Warning: %d > %d licenses in bundle reported.\n", lbc->num_bundles, STATE_MAX_NUM_IN_BUNDLE); offset += blob_size; }; return 0; } static int sdsi_provision(struct sdsi_dev *s, char *bin_file, enum command command) { int bin_fd, prov_fd, size, ret; char buf[STATE_CERT_MAX_SIZE] = { 0 }; char cap[] = "provision_cap"; char akc[] = "provision_akc"; char *prov_file; if (!bin_file) { fprintf(stderr, "No binary file provided\n"); return -1; } /* Open the binary */ bin_fd = open(bin_file, O_RDONLY); if (bin_fd == -1) { fprintf(stderr, "Could not open file %s: %s\n", bin_file, strerror(errno)); return bin_fd; } prov_file = (command == CMD_PROV_AKC) ? akc : cap; ret = chdir(s->dev_path); if (ret == -1) { perror("chdir"); close(bin_fd); return ret; } /* Open the provision file */ prov_fd = open(prov_file, O_WRONLY); if (prov_fd == -1) { fprintf(stderr, "Could not open file %s: %s\n", prov_file, strerror(errno)); close(bin_fd); return prov_fd; } /* Read the binary file into the buffer */ size = read(bin_fd, buf, STATE_CERT_MAX_SIZE); if (size == -1) { close(bin_fd); close(prov_fd); return -1; } ret = write(prov_fd, buf, size); if (ret == -1) { close(bin_fd); close(prov_fd); perror("Provisioning failed"); return ret; } printf("Provisioned %s file %s successfully\n", prov_file, bin_file); close(bin_fd); close(prov_fd); return 0; } static int sdsi_provision_akc(struct sdsi_dev *s, char *bin_file) { int ret; ret = sdsi_update_registers(s); if (ret) return ret; if (!s->regs.en_features.sdsi) { fprintf(stderr, "On Demand feature is present but not enabled. Unable to provision"); return -1; } if (!s->regs.prov_avail.available) { fprintf(stderr, "Maximum number of updates (%d) has been reached.\n", s->regs.prov_avail.threshold); return -1; } if (s->regs.auth_fail_count.key_failure_count == s->regs.auth_fail_count.key_failure_threshold) { fprintf(stderr, "Maximum number of AKC provision failures (%d) has been reached.\n", s->regs.auth_fail_count.key_failure_threshold); fprintf(stderr, "Power cycle the system to reset the counter\n"); return -1; } return sdsi_provision(s, bin_file, CMD_PROV_AKC); } static int sdsi_provision_cap(struct sdsi_dev *s, char *bin_file) { int ret; ret = sdsi_update_registers(s); if (ret) return ret; if (!s->regs.en_features.sdsi) { fprintf(stderr, "On Demand feature is present but not enabled. Unable to provision"); return -1; } if (!s->regs.prov_avail.available) { fprintf(stderr, "Maximum number of updates (%d) has been reached.\n", s->regs.prov_avail.threshold); return -1; } if (s->regs.auth_fail_count.auth_failure_count == s->regs.auth_fail_count.auth_failure_threshold) { fprintf(stderr, "Maximum number of CAP provision failures (%d) has been reached.\n", s->regs.auth_fail_count.auth_failure_threshold); fprintf(stderr, "Power cycle the system to reset the counter\n"); return -1; } return sdsi_provision(s, bin_file, CMD_PROV_CAP); } static int read_sysfs_data(const char *file, int *value) { char buff[16]; FILE *fp; fp = fopen(file, "r"); if (!fp) { perror(file); return -1; } if (!fgets(buff, 16, fp)) { fprintf(stderr, "Failed to read file '%s'", file); fclose(fp); return -1; } fclose(fp); *value = strtol(buff, NULL, 0); return 0; } static struct sdsi_dev *sdsi_create_dev(char *dev_no) { int dev_name_len = sizeof(SDSI_DEV) + strlen(dev_no) + 1; struct sdsi_dev *s; int guid; DIR *dir; s = (struct sdsi_dev *)malloc(sizeof(*s)); if (!s) { perror("malloc"); return NULL; } s->dev_name = (char *)malloc(sizeof(SDSI_DEV) + strlen(dev_no) + 1); if (!s->dev_name) { perror("malloc"); free(s); return NULL; } snprintf(s->dev_name, dev_name_len, "%s.%s", SDSI_DEV, dev_no); s->dev_path = (char *)malloc(sizeof(AUX_DEV_PATH) + dev_name_len); if (!s->dev_path) { perror("malloc"); free(s->dev_name); free(s); return NULL; } snprintf(s->dev_path, sizeof(AUX_DEV_PATH) + dev_name_len, "%s%s", AUX_DEV_PATH, s->dev_name); dir = opendir(s->dev_path); if (!dir) { fprintf(stderr, "Could not open directory '%s': %s\n", s->dev_path, strerror(errno)); free(s->dev_path); free(s->dev_name); free(s); return NULL; } if (chdir(s->dev_path) == -1) { perror("chdir"); free(s->dev_path); free(s->dev_name); free(s); return NULL; } if (read_sysfs_data("guid", &guid)) { free(s->dev_path); free(s->dev_name); free(s); return NULL; } s->guid = guid; return s; } static void sdsi_free_dev(struct sdsi_dev *s) { free(s->dev_path); free(s->dev_name); free(s); } static void usage(char *prog) { printf("Usage: %s [-l] [-d DEVNO [-i] [-s] [-m] [-a FILE] [-c FILE]]\n", prog); } static void show_help(void) { printf("Commands:\n"); printf(" %-18s\t%s\n", "-l, --list", "list available On Demand devices"); printf(" %-18s\t%s\n", "-d, --devno DEVNO", "On Demand device number"); printf(" %-18s\t%s\n", "-i, --info", "show socket information"); printf(" %-18s\t%s\n", "-s, --state", "show state certificate"); printf(" %-18s\t%s\n", "-m, --meter", "show meter certificate"); printf(" %-18s\t%s\n", "-a, --akc FILE", "provision socket with AKC FILE"); printf(" %-18s\t%s\n", "-c, --cap FILE>", "provision socket with CAP FILE"); } int main(int argc, char *argv[]) { char bin_file[PATH_MAX], *dev_no = NULL; bool device_selected = false; char *progname; enum command command = -1; struct sdsi_dev *s; int ret = 0, opt; int option_index = 0; static struct option long_options[] = { {"akc", required_argument, 0, 'a'}, {"cap", required_argument, 0, 'c'}, {"devno", required_argument, 0, 'd'}, {"help", no_argument, 0, 'h'}, {"info", no_argument, 0, 'i'}, {"list", no_argument, 0, 'l'}, {"meter", no_argument, 0, 'm'}, {"state", no_argument, 0, 's'}, {0, 0, 0, 0 } }; progname = argv[0]; while ((opt = getopt_long_only(argc, argv, "+a:c:d:hilms", long_options, &option_index)) != -1) { switch (opt) { case 'd': dev_no = optarg; device_selected = true; break; case 'l': sdsi_list_devices(); return 0; case 'i': command = CMD_SOCKET_INFO; break; case 'm': command = CMD_METER_CERT; break; case 's': command = CMD_STATE_CERT; break; case 'a': case 'c': if (!access(optarg, F_OK) == 0) { fprintf(stderr, "Could not open file '%s': %s\n", optarg, strerror(errno)); return -1; } if (!realpath(optarg, bin_file)) { perror("realpath"); return -1; } command = (opt == 'a') ? CMD_PROV_AKC : CMD_PROV_CAP; break; case 'h': usage(progname); show_help(); return 0; default: usage(progname); return -1; } } if (device_selected) { s = sdsi_create_dev(dev_no); if (!s) return -1; switch (command) { case CMD_SOCKET_INFO: ret = sdsi_read_reg(s); break; case CMD_METER_CERT: ret = sdsi_meter_cert_show(s); break; case CMD_STATE_CERT: ret = sdsi_state_cert_show(s); break; case CMD_PROV_AKC: ret = sdsi_provision_akc(s, bin_file); break; case CMD_PROV_CAP: ret = sdsi_provision_cap(s, bin_file); break; default: fprintf(stderr, "No command specified\n"); return -1; } sdsi_free_dev(s); } else { fprintf(stderr, "No device specified\n"); return -1; } return ret; }
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